Prostate Cancer Clinical Trial
Official title:
BMS CA180-097: A Phase II Trial of Dasatinib (Sprycel®) in Subjects With Hormone-refractory Prostate Cancer, Previously Treated With Chemotherapy
The purpose of this research study is to find out if a new anti-cancer drug, dasatinib
(Sprycel®), previously approved for treatment of some forms of leukemia, will be safe and
helpful in treating patients with hormone-refractory prostate cancer.
This is a research study because the study drug, dasatinib (Sprycel®), has not been evaluated
for safety or effectiveness in patients with hormone-refractory prostate cancer. The drug is
approved by the Food and Drug Administration for treatment of some forms of leukemia; thus,
dasatinib (Sprycel®) is not an investigational drug. It has been given safely to hundreds of
patients already. However its safety and usefulness in this study population (prostate
cancer) is unknown.
Subjects who agree to participate will take 150mg (3 pills) of dasatinib (Sprycel®) daily by
mouth for as long as the drug benefits them. During this time, the subject will periodically
return to the office for blood/urine tests, X-rays, imaging scans, and/or to complete
questionnaires.
Metastatic prostate adenocarcinoma is initially dependent on exogenous androgens for survival
and growth; hence, androgen blockade is a key initial intervention for these patients.
Whether by orchiectomy or by biochemical blockade, androgen deprivation produces objective
regression of prostate cancer in >90% of patients for an average of 1.5-2yrs. Afterwards,
however, the remaining prostate cancer cells become independent of exogenous androgen and
resume their growth. At this stage the disease is referred to as hormone-refractory prostate
cancer (HRPC).
Treatment for HRPC remains unsatisfactory. Only two interventions have been proven through
randomized, prospective studies to confer a survival advantage. Docetaxel administered along
with prednisone or estramsutine increases overall survival by approximately 3 months,
compared with patients treated with mitoxantrone (1,2). In addition, a cell-based vaccine
(APC8015) has recently been shown to confer a similar survival advantage for patients with
HRPC (3). In 127 patients with HRPC randomized to receive the APC8015 vaccine or unactivated
autologous peripheral blood mononuclear cells, there was a 4.5-month increase in median
overall survival for the treated cohort (p = 0.01). Thus additional therapeutic tools are
needed.
Although the mechanisms whereby androgen-independence develops are not yet fully clarified
(7), it is known that malignant progression of prostate cancer involves upregulation of
autocrine growth factors and their receptors (8). The process of autocrine reprogramming
facilitates autonomous growth and metastasis of the tumor cells. For this reason many of the
major novel therapeutic approaches for prostate cancer, currently in clinical trials, are
directed against growth factor signaling pathways involving tyrosine kinase receptors and
their downstream signaling messengers. Among these, recent evidence suggests a centrol role
for the non-receptor tyrosine kinase c-src, in the development, growth, and metastasis of
many human cancers (9,10), including prostate carcinomas. Several SFKs are present in
prostate cancer cells, including c-src, yes, lck, and lyn (11). SFKs are thought to mediate
the signaling pathways of several growth factors and stressors, such as lysophosphatidic
acid, bombesin, androgens, and hypoxia (12-15). In prostate cancer cells that are
androgen-independent, activation of SFKs is constitutive, rather than ligand-regulated (16).
SFKs in turn regulate such diverse prostate cell pathways as VEGF production (15), and FAK
signaling (17). Among the response phenotypes mediated by SFKs include cell spreading and
attachment, migration and invasion. Genetic and pharmacologic inhibitors of SFKs have been
tested on prostate cancer cell lines. Thus two pyrrolopyrimidine c-src inhibitors were shown
to inhibit production of the protease MMP-9, as well as the functional ability of the cells
to invade Matrigel (18). These phenotypes occurred at inhibitor concentrations that did not
significantly affect cell proliferation. In contrast a peptide inhibitor of the lyn kinase
inhibited the proliferation of prostate cancer cell lines in culture, and reduced the growth
of DU145 xenografts in nude mice (19). Thus a spectrum of responses have been seen in
prostate cancer cells or tumors treated with SFK inhibitors, including inhibition of growth.
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